Nuclear Power
Plant
Working Principle:
A nuclear power
plant differs from a conventional steam power plant only in the steam
generating part. There is no change in the turbo-alternator and the condensing
system.
The nuclear fuel
which is at present in commercial use is uranium. Scientists say that 1 kg of
uranium can produce as much energy as can be produced by burning 4500 tonnes of
high grade coal.
To understand how
nuclear fission works, refer the below image.
Uranium exists in
the isotopic form of U235 which is unstable. When a neutron enters the nucleus
of U235, the nucleus splits into two equal fragments and also releases 2.5 fast
moving neutrons with a velocity of 1.5*10^7 meters/sec producing a large amount
of energy, nearly 200 million electron-volts. This is called “nuclear fission”.
Chain reaction:
The neutrons
released during the fission can be made to fission other nuclei of U235 causing
a chain reaction. A chain reaction produces enormous amount of heat, which is
used to produce steam.
The chain reaction
under uncontrolled conditions can release extremely large amounts of energy
causing “atomic explosion”.
Energy liberated in
chain reaction, according to Einstein law, is E=mv^2, where E=energy liberated,
m=mass in grams, v= speed of light = 3*10^10 cm/sec.
Out of 2.5 neutrons
released in fission of each nuclei of U235, one neutron is used to sustain the
chain reaction, 0.9 neutron is converted into fissionable material Pu239 and
0.6 neutron is absorbed by control rod and coolant moderator.
Function of the
moderator is to reduce the energy of neutrons evolved during fission in order
to maintain the chain reaction. The moderators which are commonly used are
ordinary water and heavy water.
Main components
of a nuclear power plant
Nuclear reactor:
A nuclear reactor
may be regarded as a substitute for the boiler fire box of a steam power plant.
Heat is produced in the reactor due to nuclear fission of the fuel U235. the heat liberated in the reactor is taken up by the
coolant circulating through the core. Hot coolant leaves the reactor at top and
flows into the steam generator (boiler).
Radiation hazards
and shielding:
The reactor is a
source of intense radio-activity. These radiations are very harmful to human
life. It requires strong control to ensure that this radio-activity is not
released into the atmosphere to avoid atmospheric pollution. A thick concrete
shielding and a pressure vessel are provided to prevent the escape of these
radiations to atmosphere.
Types of reactors:
● Pressurized water reactor
● Boiling water reactor
● Heavy water-cooled reactor.
Steam generator:
The steam generator
is fed with feed water which is converted into steam by heat of the hot
coolant. The purpose of the coolant is to transfer the heat generated in the
reactor core and use it for steam generation. Ordinary water or heavy water is
a common coolant.
Turbine
The steam produced
in the steam generator is passed to the turbine and work is done by the
expansion of steam in the turbine.
Coolant pumps and
feed pump
The steam from the
turbine flows to the condenser where cooling water is circulated. Coolant pump
and feed pump are provided to maintain the flow of the coolant and feed water
respectively.
Advantages of
nuclear power plant
● It can be easily adopted where
water and coal resources are not available.
● The nuclear power plant
requires very small quantity of fuel. Hence fuel transportation cost is less.
● Space requirement is less
compared to other power plants of equal capacity.
● It is not affected by adverse
weather conditions.
● Fuel storage facilities are not
needed as in case of the thermal power plant.
● Nuclear power plant will
conserve the fossil fuels (coal, petroleum) for other energy needs.
● Number of workmen required at
nuclear plant is far less than thermal plant.
● It does not require large
quantity of water.
Disadvantages of
nuclear power plant
● Radio-active wastes, if not
disposed carefully, have adverse effect on the health of workmen and the
population surrounding the plant.
● It is not suited for varying
load conditions.
● It requires well-trained
personnel.
● It requires high initial cost
compared to hydro or thermal power plants.